EP4236640A1 - Support pour une carte de circuit imprimé - Google Patents

Support pour une carte de circuit imprimé Download PDF

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Publication number
EP4236640A1
EP4236640A1 EP22158286.9A EP22158286A EP4236640A1 EP 4236640 A1 EP4236640 A1 EP 4236640A1 EP 22158286 A EP22158286 A EP 22158286A EP 4236640 A1 EP4236640 A1 EP 4236640A1
Authority
EP
European Patent Office
Prior art keywords
circuit board
nut
printed circuit
tubular fastener
holder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP22158286.9A
Other languages
German (de)
English (en)
Inventor
Mathias Baader
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Siemens AG
Original Assignee
Siemens AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Siemens AG filed Critical Siemens AG
Priority to EP22158286.9A priority Critical patent/EP4236640A1/fr
Priority to US18/171,880 priority patent/US20230269888A1/en
Priority to CN202310188916.3A priority patent/CN116648021A/zh
Publication of EP4236640A1 publication Critical patent/EP4236640A1/fr
Pending legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K5/00Casings, cabinets or drawers for electric apparatus
    • H05K5/0026Casings, cabinets or drawers for electric apparatus provided with connectors and printed circuit boards [PCB], e.g. automotive electronic control units
    • H05K5/0069Casings, cabinets or drawers for electric apparatus provided with connectors and printed circuit boards [PCB], e.g. automotive electronic control units having connector relating features for connecting the connector pins with the PCB or for mounting the connector body with the housing
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K7/00Constructional details common to different types of electric apparatus
    • H05K7/14Mounting supporting structure in casing or on frame or rack
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B6/00Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
    • G02B6/24Coupling light guides
    • G02B6/36Mechanical coupling means
    • G02B6/38Mechanical coupling means having fibre to fibre mating means
    • G02B6/3807Dismountable connectors, i.e. comprising plugs
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R12/00Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
    • H01R12/70Coupling devices
    • H01R12/71Coupling devices for rigid printing circuits or like structures
    • H01R12/712Coupling devices for rigid printing circuits or like structures co-operating with the surface of the printed circuit or with a coupling device exclusively provided on the surface of the printed circuit
    • H01R12/716Coupling device provided on the PCB
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/02Contact members
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/73Means for mounting coupling parts to apparatus or structures, e.g. to a wall
    • H01R13/74Means for mounting coupling parts in openings of a panel
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K5/00Casings, cabinets or drawers for electric apparatus
    • H05K5/0026Casings, cabinets or drawers for electric apparatus provided with connectors and printed circuit boards [PCB], e.g. automotive electronic control units
    • H05K5/0047Casings, cabinets or drawers for electric apparatus provided with connectors and printed circuit boards [PCB], e.g. automotive electronic control units having a two-part housing enclosing a PCB
    • H05K5/006Casings, cabinets or drawers for electric apparatus provided with connectors and printed circuit boards [PCB], e.g. automotive electronic control units having a two-part housing enclosing a PCB characterized by features for holding the PCB within the housing
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K7/00Constructional details common to different types of electric apparatus
    • H05K7/14Mounting supporting structure in casing or on frame or rack
    • H05K7/1417Mounting supporting structure in casing or on frame or rack having securing means for mounting boards, plates or wiring boards
    • H05K7/142Spacers not being card guides
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/73Means for mounting coupling parts to apparatus or structures, e.g. to a wall
    • H01R13/74Means for mounting coupling parts in openings of a panel
    • H01R13/746Means for mounting coupling parts in openings of a panel using a screw ring

Definitions

  • the present disclosure relates to a circuit board mount.
  • the present disclosure relates to a mount for a circuit board, the mount being secured to a housing of a device.
  • So-called cable-to-board connectors are often used to control the tolerance chain.
  • a flexible electrical connection for example a ribbon cable and/or a ribbon connector, is fastened to a base using a connector.
  • wire-to-board connections attach plugs and sockets to printed circuit boards.
  • Those sockets, plugs and those flexible electrical connections are additional components within a device, for example within a valve controller.
  • Connectors and sockets can come loose as a result of mechanical vibrations, among other things.
  • Flexible electrical connections such as ribbon cables and/or ribbon connectors and in particular, such flexible connections made of copper wires withstand a limited number of alternating bending cycles. Such flexible electrical connections can then break. The loosening of a plug connection as well as the breakage of a flexible electrical connection often lead to the failure of the device.
  • DE3011243A1 A German patent application DE3011243A1 was filed on March 24, 1980 by Siemens AG . The application was published on 1 October 1981. DE3011243A1 deals with a locking device for a bearing axle.
  • a plate is secured using a fastener.
  • the attachment includes a head and a shank.
  • webs protrude diametrically from the shaft.
  • the webs have cams which interact with locking holes in the plate to secure the plate.
  • the shaft in turn includes a blind hole in which a bearing axle is rotatably mounted.
  • DE10226761A1 Another patent application was filed on June 14, 2002 by a patent trust company for electric light bulbs mbH. The application was published on January 8, 2004. DE10226761A1 treats a bayonet socket for a lamp mount.
  • DE10226761A1 teaches a lamp mount with a bayonet connector.
  • the bayonet plug can be screwed into a first vessel half of the lamp holder using a bayonet socket.
  • the first half of the lamp holder carries a printed circuit board for an electrical ballast.
  • a second vessel half of the lamp holder includes a receptacle for a fluorescent tube.
  • the bayonet connector can be screwed into the first half of the lamp holder, but not into the second half. Screw terminals or plug-in terminals are provided for connection to a wall. Such clamps allow attachment to a wall using flexible electrical wiring.
  • DE102009059013A1 Another German patent application DE102009059013A1 was filed on December 17, 2009 by Phoenix Contact GmbH & Co. KG . The application was published on 22 June 2011.
  • DE102009059013A1 deals with a device for fastening at least one printed circuit board to a receiving element.
  • the recording element off DE102009059013A1 is connected to three circuit boards by means of a fastener.
  • An opening in the printed circuit board allows the implementation of the Fastening through the circuit boards.
  • a central fixation of the printed circuit boards on the receiving element takes place using holding elements.
  • the aim of the present disclosure is to fasten a printed circuit board within a housing in such a way that protection against dust and/or foreign bodies and/or water is guaranteed.
  • flexible electrical connections such as flat ribbon cables can largely be dispensed with.
  • the present disclosure deals with a circuit board holder for installation in a device.
  • the device can be an electrical and/or electronic device, for example.
  • the device can be a controller for a gas burner and/or an oil burner.
  • the device can be a regulator for a gas burner and/or an oil burner.
  • the device can include a control and/or regulation for a valve.
  • the device can include a control and/or regulation for a valve.
  • the device can include a control and/or regulation for a valve drive.
  • the device can be a controller and/or a regulator for a valve drive.
  • the printed circuit board holder is attached to a housing of the device using a fastening element.
  • the fastening element is firmly mechanically connected to the housing in such a way that the fastening element cannot move relative to the housing.
  • the fastening element is firmly mechanically connected to the circuit board holder in such a way that the fastening element cannot move relative to the circuit board holder.
  • the fastening element comprises at least one screw connection.
  • the fastening element is preferably screwed to the housing of the device.
  • the fastening element is ideally screwed to the circuit board holder.
  • the fastening element is advantageously screwed to the housing of the device and to the circuit board holder.
  • a circuit board can be attached to the circuit board holder in such a way that it is inside the device.
  • the housing of the device defines an interior area of the device.
  • the printed circuit board can advantageously be mechanically fastened to the printed circuit board holder in such a way that the printed circuit board cannot move relative to the printed circuit board holder.
  • the circuit board holder preferably comprises at least one holder.
  • the printed circuit board holder can in particular comprise two or three or four holders.
  • the printed circuit board holder is connected to the printed circuit board using the at least one holder in the form of a screw connection.
  • the circuit board holder is connected to the circuit board by means of two mounts in the form of screw connections.
  • the circuit board holder is connected to the circuit board using three mounts in the form of screw connections.
  • the circuit board holder is connected to the circuit board by means of four mounts in the form of screw connections.
  • the circuit board holder is connected to the circuit board using the at least one holder in the form of a rivet. In a further embodiment, the circuit board holder is connected to the circuit board by means of two holders in the form of rivets. In yet another embodiment, the circuit board holder is connected to the circuit board by means of three mounts in the form of rivets. In yet another embodiment, the circuit board holder is connected to the circuit board by means of four fasteners in the form of rivets.
  • the circuit board holder is connected to the circuit board using the at least one holder in the form of an adhesive bond. In a further embodiment, the printed circuit board holder is connected to the printed circuit board using two mounts in the form of adhesive bonds. In yet another embodiment, the printed circuit board holder is connected to the printed circuit board using three mounts in the form of adhesive bonds. In yet another embodiment, the circuit board holder is connected to the circuit board by means of four brackets in the form of adhesive bonds.
  • the circuit board holder is connected to the circuit board by means of the at least one holder in the form of a snap-in plug connection.
  • the circuit board holder is connected to the circuit board by means of two holders in the form of snap-in plug connections.
  • the printed circuit board holder is connected to the printed circuit board by means of three holders in the form of snap-in plug connections.
  • the circuit board holder is connected to the circuit board by means of four fasteners in the form of snap-in connectors.
  • FIG 1 shows a housing wall 1 of a device, for example an electrical and/or electronic device.
  • the housing wall 1 can be made, for example, from a metal such as aluminum and/or steel and/or ferritic steel and/or austenitic steel.
  • the housing wall 1 can also be made of a plastic such as polyvinyl chloride and/or polyethylene terephthalate and/or acrylonitrile-butadiene-styrene copolymer. The above lists of materials for the housing wall 1 are not final.
  • the housing wall 1 is produced in an injection molding process.
  • the housing wall 1 or parts of the housing wall 1 are produced using an additive manufacturing method such as three-dimensional printing.
  • the housing wall 1 and/or parts of the housing wall 1 can be produced by selective laser sintering.
  • the housing wall 1 has a first opening.
  • the first opening in the housing wall 1 preferably has a circular cross-section.
  • the first opening in the housing wall 1 can also have a square, rectangular or hexagonal cross section. The above list of cross sections of the first opening in the housing wall 1 does not claim to be complete.
  • the first opening in the housing wall 1 is a bore. In a further embodiment, the first opening in the housing wall 1 is punched. More technical possibilities for producing the first opening in the housing wall 1 are known in the relevant field. For example, the first opening in the housing wall 1 can be made as a recess during manufacture using an additive manufacturing method.
  • a first threaded bolt 6 is guided through the first opening in the housing wall 1 .
  • the first threaded bolt 6 preferably comprises a first hollow cylinder with a first external thread, for example with a first metric external thread.
  • the first threaded bolt 6 is ideally a first hollow cylinder with a first external thread, for example with a first metric external thread.
  • the first hollow cylinder of the first threaded bolt 6 is made of a material which is compatible with the material of the housing wall 1.
  • the first hollow cylinder of the first threaded bolt 6 can be made of a metal such as aluminum and/or steel and/or ferritic steel and/or austenitic be made of steel and/or brass.
  • the first hollow cylinder of the first threaded bolt 6 can also be made of a plastic. The above lists of materials for the first hollow cylinder of the first threaded bolt 6 are not final.
  • the housing wall 1 has a first and a second side.
  • the first side of the housing wall 1 is different from the second side of the housing wall 1.
  • the first side of the housing wall 1 is the second side of the housing wall 1 opposite. In one embodiment, the first side of the housing wall 1 is parallel to the second side of the housing wall 1.
  • the first side of the housing wall 1 preferably belongs to an outside of the device, for example to an outside of the electrical and/or electronic device.
  • the second side of the housing wall 1 preferably belongs to an inside of the device, for example to an inside of the electrical and/or electronic device.
  • a first screw nut is attached to the first threaded bolt 6 on the first side of the housing wall 1 in such a way that the first screw nut borders on the first side of the housing wall 1 .
  • the threaded bolt 6 and the first nut are designed as a single part, ie in one piece.
  • the first nut preferably comprises a first retaining nut and/or a first flat nut.
  • the first nut is ideally a first retaining nut and/or a first flat nut.
  • the first nut is, for example, a first Nut with a metric thread on an inside of the first nut.
  • the threaded bolt 6 and the first retaining nut and/or the first flat nut are preferably designed as a single part, ie in one piece.
  • the first nut is made of a material that is compatible with the material of the first threaded bolt 6.
  • the first nut is also made of a material that is compatible with the material of the housing wall 1.
  • the first nut can be made of a metal such as aluminum, for example and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the first nut can also be made of a plastic. The above lists of materials for the first nut are not exhaustive.
  • a second nut is attached to the first threaded bolt 6 on the second side of the housing wall 1 in such a way that the second nut is adjacent to the second side of the housing wall 1 .
  • the second nut preferably comprises a second retaining nut and/or a second flat nut.
  • the second nut is ideally a second retaining nut and/or a second flat nut.
  • the second nut is, for example, a second nut with a metric thread on an inside of the second nut.
  • the second nut is made of a material that is compatible with the material of the first threaded bolt 6.
  • the second nut is also made of a material that is compatible with the material of the housing wall 1.
  • the second nut can be made of a metal such as aluminum, for example and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the second nut can also be made of a plastic. The above lists of materials for the second nut are not exhaustive.
  • the second nut is arranged opposite to the first nut.
  • the housing wall 1 is arranged between the second nut and the first nut.
  • the second nut and the first nut fasten the first threaded bolt 6 to the housing wall 1.
  • the fastening is such that the first threaded bolt 6 is essentially immovable relative to the housing wall 1.
  • the second nut and the first nut preferably fasten the first threaded bolt 6 to the housing wall 1 in such a way that the first threaded bolt 6 is immovable relative to the housing wall 1 .
  • a rigid bond enables exact positioning of the components, in particular exact positioning of electrical contacts between the components.
  • the second retaining nut is arranged opposite the first retaining nut.
  • the housing wall 1 is arranged between the second retaining nut and the first retaining nut.
  • the second retaining nut and the first retaining nut fasten the first threaded bolt 6 to the housing wall 1.
  • the fastening is such that the first threaded bolt 6 is essentially immovable relative to the housing wall 1.
  • the second retaining nut and the first retaining nut preferably fasten the first threaded bolt 6 to the housing wall 1 in such a way that the first threaded bolt 6 cannot move relative to the housing wall 1 .
  • the second flat nut is arranged opposite the first flat nut.
  • the housing wall 1 is arranged between the second flat nut and the first flat nut.
  • the second flat nut and the first flat nut fasten the first threaded bolt 6 to the housing wall 1.
  • the fastening is such that the first threaded bolt 6 is essentially immovable relative to the housing wall 1.
  • the second flat nut and the first flat nut preferably fasten the first threaded bolt 6 to the housing wall 1 in such a way that the first threaded bolt 6 cannot move relative to the housing wall 1 .
  • the first threaded bolt 6 is screwed into the housing wall 1 .
  • the first opening in the housing wall 1 has an internal thread which matches the first external thread of the first threaded bolt 6 .
  • the internal thread of the first opening in the housing wall 1 and the first external thread of the first threaded bolt 6 can both be metric.
  • the first nut and the second nut can also be omitted.
  • the first retaining nut or the second retaining nut can also be omitted.
  • the first retaining nut and the second retaining nut can also be omitted.
  • the first flat nut or the second flat nut can be omitted.
  • the first flat nut and the second flat nut can also be omitted.
  • the first threaded bolt 6 preferably runs essentially perpendicular to the first and to the second side of the housing wall 1. Ideally, the first threaded bolt 6 runs perpendicular to the first and to the second side of the housing wall 1.
  • a printed circuit board holder 2 is arranged on the second side of the housing wall 1 .
  • the circuit board holder 2 is preferably arranged on the inside of the device, for example on the inside of the electrical and/or electronic device.
  • the second side of the housing wall 1 and the printed circuit board holder 2 can be spaced apart, for example, by two millimeters or one millimeter or half a millimeter.
  • the distance between the second side of the housing wall 1 and the circuit board holder 2 is preferably small or very small.
  • the circuit board holder 2 can be made, for example, from a metal such as aluminum and/or steel and/or ferritic steel and/or austenitic steel.
  • the circuit board holder 2 can also be made of a plastic such as polyvinyl chloride and/or polyethylene terephthalate and/or acrylonitrile-butadiene-styrene copolymer. The above lists of materials for the circuit board holder 2 are not exhaustive.
  • the circuit board holder 2 is produced in an injection molding process.
  • the circuit board holder 2 or parts of the circuit board holder 2 are manufactured using an additive manufacturing method such as three-dimensional printing.
  • the circuit board holder 2 and/or parts of the circuit board holder 2 can be produced by selective laser sintering.
  • the circuit board holder 2 has a first side and a second side.
  • the first side of the board holder 2 is different from the second side of the board holder 2.
  • the first side of the board holder 2 faces the second side of the board holder 2.
  • the first side of the circuit board holder 2 is parallel to the second side of the circuit board holder 2.
  • the first side of the circuit board holder 2 preferably lies opposite the second side of the housing wall 1 .
  • the first side of the circuit board holder 2 and the second side of the housing wall 1 are arranged essentially in parallel.
  • the first side of the circuit board holder 2 and the second side of the housing wall 1 can be arranged in parallel.
  • the first side of the circuit board holder 2 and the first side of the housing wall 1 can be arranged in parallel.
  • the second side of the circuit board holder 2 and the second side of the housing wall 1 can be parallel be arranged.
  • the second side of the circuit board holder 2 and the first side of the housing wall 1 can be arranged in parallel.
  • the circuit board holder 2 has a first opening.
  • the first opening in the circuit board holder 2 preferably has a circular cross-section.
  • the first opening in the circuit board holder 2 can also have a square, rectangular or hexagonal cross section. The above list of cross sections of the first opening in the circuit board holder 2 does not claim to be complete.
  • the first opening in the circuit board holder 2 is a bore. In a further embodiment, the first opening in the circuit board holder 2 is punched. Further technical options for producing the first opening in the circuit board holder 2 are known in the relevant field. For example, the first opening in the circuit board holder 2 can be made as a recess during production using an additive manufacturing method.
  • the first threaded bolt 6 is guided through the first opening in the circuit board holder 2 .
  • the first threaded bolt 6 preferably comprises a first hollow cylinder with a first external thread, for example with a first metric external thread.
  • the first threaded bolt 6 is ideally a first hollow cylinder with a first external thread, for example with a first metric external thread.
  • the first threaded bolt 6 preferably runs essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the first threaded bolt 6 runs perpendicular to the first and to the second side of the circuit board holder 2.
  • a first spacer is inserted between the circuit board holder 2 and the housing wall 1 .
  • a first spacer is preferably inserted between the circuit board holder 2 and the second side of the housing wall 1 . Ideally, a portion of the first threaded bolt 6 runs within the first spacer.
  • the first spacer is made from a material which is compatible with the material of the first threaded bolt 6 and with the housing wall 1 .
  • the first spacer is also made of a material compatible with the material of the board holder 2.
  • the first spacer is also made of a Material made which is compatible with the material of the second nut, in particular the second retaining nut and / or the second flat nut.
  • the first spacer can be made, for example, from a metal such as aluminum and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the first spacer can also be made of a plastic. The foregoing lists of first spacer materials are not exhaustive.
  • the first spacer has a length dimension which is parallel to the first threaded bolt 6 .
  • the length dimension of the first spacer is parallel to an axis of the first stud 6, the first stud 6 being substantially cylindrically symmetrical about that axis.
  • the first threaded bolt 6 is cylindrically symmetrical to that axis of the first threaded bolt 6, except for its first external thread.
  • the length dimension of the first spacer can be more than one millimeter, or more than two millimeters, or more than five millimeters, for example.
  • a sufficient distance between the circuit board holder 2 and the housing wall 1 contributes to the electrical and/or thermal insulation of both components.
  • a sufficient distance between the circuit board holder 2 and the second side of the housing wall 1 contributes to the electrical and/or thermal insulation of both components.
  • the first spacer has a first side.
  • the first side of the first spacer preferably abuts the second nut.
  • the first side of the first spacer preferably abuts the second retaining nut.
  • the first side of the first spacer abuts the second flat nut.
  • the first spacer has a second side.
  • the second side of the first spacer is different than the first side of the first spacer.
  • the first and second sides of the first spacer are parallel to each other.
  • the length dimension of the first spacer corresponds to a shortest distance between the first and second sides of the first spacer.
  • the length dimension is ideally a shortest distance between the first and second sides of the first spacer.
  • the second side of the first spacer abuts the circuit board holder 2.
  • the second side of the first spacer borders the first side of the circuit board holder 2.
  • the second side of the first spacer abuts the first side of the circuit board holder 2.
  • a third nut 3 is attached to the first threaded bolt 6 on the second side of the circuit board holder 2 in such a way that the third nut 3 borders on the second side of the circuit board holder 2 .
  • the third nut 3 preferably comprises a third retaining nut and/or a third flat nut.
  • the third nut 3 is ideally a third retaining nut and/or a third flat nut.
  • the third nut 3 is, for example, a third nut 3 with a metric thread on an inside of the third nut 3.
  • the third nut 3 is made of a material which is compatible with the material of the first threaded bolt 6.
  • the third nut 3 is also made of a material which is compatible with the material of the circuit board holder 2.
  • the third nut 3 can, for example, be made of a Metal such as aluminum and / or steel and / or ferritic steel and / or austenitic steel and / or brass can be made.
  • the third nut 3 can also be made of a plastic. The above lists of materials for the third nut 3 are not exhaustive.
  • the third nut 3 is arranged opposite to the first spacer.
  • the circuit board holder 2 is arranged between the third nut 3 and the first spacer.
  • the third nut 3 and the first spacer fasten the first threaded bolt 6 to the circuit board holder 2.
  • the fastening is such that the first threaded bolt 6 relative to the circuit board holder 2 is essentially immovable.
  • the third nut 3 and the first spacer preferably fasten the first threaded bolt 6 to the circuit board holder 2 in such a way that the first threaded bolt 6 is immovable relative to the circuit board holder 2 .
  • the third retaining nut and/or third flat nut is arranged opposite the first spacer.
  • the circuit board holder 2 is arranged between the third retaining nut and/or the third flat nut and the first spacer.
  • the third retaining nut and/or third flat nut and the first spacer fasten the first threaded bolt 6 to the circuit board holder 2.
  • the fastening is such that the first threaded bolt 6 relative to the circuit board holder 2 is essentially immovable.
  • the attachment is preferably such that the first threaded bolt 6 cannot move relative to the printed circuit board holder 2 .
  • the first threaded bolt 6 is screwed into the circuit board holder 2 .
  • the first opening in the circuit board holder 2 has an internal thread which matches the first external thread of the first threaded bolt 6 .
  • the internal thread of the first opening in the circuit board holder 2 and the first external thread of the first threaded bolt 6 can both be metric.
  • the third nut 3 and the first spacer can also be omitted.
  • the third retaining nut or the first spacer is omitted.
  • the third retaining nut and the first spacer can also be omitted.
  • the third flat nut or the first spacer can be omitted.
  • the third flat nut and the first spacer can also be omitted.
  • the first threaded bolt 6 is the only mechanical connection between the circuit board holder 2 and the housing wall 1.
  • the first threaded bolt 6 is the only mechanical connection between the first side of the circuit board holder 2 and the second side of the housing wall 1.
  • the first threaded bolt 6 is not the only mechanical connection between the circuit board holder 2 and the housing wall 1.
  • the first threaded bolt 6 is not the only mechanical connection between the first side of the circuit board holder 2 and the second side of the housing wall 1.
  • at least one mechanical support can be located between circuit board holder 2 and housing wall 1 .
  • at least one mechanical support can be located between the first side of the circuit board holder 2 and the second side of the housing wall 1 .
  • the at least one mechanical support is preferably thicker than the length dimension of the first spacer.
  • the thickness of the at least one mechanical support is measured between a first and a second side of the at least one mechanical support.
  • the first side of the at least one mechanical support is different than the second side of the at least one mechanical support.
  • the first side of the at least one mechanical support is adjacent to the second side of the Housing wall 1.
  • the second side of the at least one mechanical support is adjacent to the circuit board holder 2.
  • the thickness of the at least one mechanical support can be more than two millimeters or more than three millimeters or more than six millimeters, for example.
  • a fourth nut may be attached so as to be adjacent to the first side of the board holder 2 .
  • the board holder 2 lies between the third nut 3 on the second side of the board holder 2 and the fourth nut on the first side of the board holder 2.
  • the third nut 3 and the fourth nut fasten the first threaded bolt 6 to the board holder 2.
  • the fastening is like this that the first threaded bolt 6 relative to the circuit board holder 2 is essentially immovable.
  • the third nut 3 and the fourth nut preferably fasten the first threaded bolt 6 to the circuit board holder 2 in such a way that the first threaded bolt 6 is immovable relative to the circuit board holder 2 .
  • a rigid composite enables the components to be positioned precisely, in particular the electrical contacts between the components to be positioned precisely.
  • the fourth nut may include a fourth retaining nut.
  • the fourth nut can be a fourth retaining nut.
  • the third retaining nut is positioned opposite the fourth retaining nut.
  • the circuit board holder 2 is arranged between the third retaining nut and the fourth retaining nut.
  • the third retaining nut and the fourth retaining nut fasten the first threaded bolt 6 to the printed circuit board holder 2.
  • the fastening is such that the first threaded bolt 6 is essentially immovable relative to the printed circuit board holder 2.
  • the attachment is preferably such that the first threaded bolt 6 cannot move relative to the printed circuit board holder 2 .
  • the fourth nut may include a fourth flat nut.
  • the fourth nut can be a fourth flat nut.
  • the third flat nut is arranged opposite the fourth flat nut.
  • the circuit board holder 2 is arranged between the third flat nut and the fourth flat nut.
  • the third flat nut and the fourth flat nut fasten the first threaded bolt 6 to the printed circuit board holder 2.
  • the fastening is such that the first threaded bolt 6 is essentially immovable relative to the printed circuit board holder 2.
  • the attachment is preferably such that the first threaded bolt 6 cannot move relative to the printed circuit board holder 2 .
  • the circuit board holder 2 can have one or more bars.
  • the one or more bars protrude from the second side of the circuit board holder 2 .
  • FIG 1 shows a circuit board holder 2 with two bars. The two bars protrude from the second side of the circuit board holder 2.
  • the circuit board holder 2 can also include three or more bars which protrude from the second side of the circuit board holder 2 .
  • the one or more bars connect the circuit board holder 2 to a circuit board 4.
  • the one or more bars can each have a cylindrical recess with an internal thread.
  • the internal thread or threads can be metric internal threads.
  • the screw or screws can be metric screws.
  • the printed circuit board 4 is arranged between the spar and the screw. This means that the printed circuit board 4 has a first and a second side. The first side of the printed circuit board 4 is different from the second side of the printed circuit board 4. The first side of the printed circuit board 4 faces the second side of the printed circuit board 4. FIG. In one embodiment, the first side of the circuit board 4 is parallel to the second side of the circuit board 4. The first side of the circuit board 4 abuts the pillar. The second side of the circuit board 4 is adjacent to the screw.
  • the rail preferably runs essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the rail runs perpendicular to the first and to the second side of the circuit board holder 2.
  • the spar preferably runs essentially perpendicularly to the first and to the second side of the circuit board 4. Ideally, the spar runs perpendicularly to the first and to the second side of the circuit board 4.
  • the circuit board 4 is arranged between the bars and the respective screws.
  • the printed circuit board 4 has a first and a second side.
  • the first side of the printed circuit board 4 is different from the second side of the printed circuit board 4.
  • the first side of the printed circuit board 4 faces the second side of the printed circuit board 4.
  • FIG. In one embodiment, the first side of the circuit board 4 is parallel to the second side of the circuit board 4.
  • the first side of the Circuit board 4 borders the spars.
  • the second side of the circuit board 4 is adjacent to the screws.
  • the bars preferably run essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the bars run perpendicular to the first and to the second side of the circuit board holder 2.
  • the bars preferably run essentially perpendicular to the first and to the second side of the printed circuit board 4. Ideally, the bars run perpendicular to the first and to the second side of the printed circuit board 4.
  • the spar or spars each have a depression at their respective end.
  • a rivet secures the circuit board 4 to the respective strut.
  • the printed circuit board 4 is arranged between the pillar and the rivet. This means that the printed circuit board 4 has a first and a second side. The first side of the printed circuit board 4 is different from the second side of the printed circuit board 4. The first side of the printed circuit board 4 faces the second side of the printed circuit board 4. FIG. In one embodiment, the first side of the circuit board 4 is parallel to the second side of the circuit board 4. The first side of the circuit board 4 abuts the pillar. The second side of the printed circuit board 4 borders the rivet.
  • the rail preferably runs essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the rail runs perpendicular to the first and to the second side of the circuit board holder 2.
  • the spar preferably runs essentially perpendicularly to the first and to the second side of the circuit board 4. Ideally, the spar runs perpendicularly to the first and to the second side of the circuit board 4.
  • the circuit board 4 is arranged between the bars and the respective rivets.
  • the printed circuit board 4 has a first and a second side.
  • the first side of the printed circuit board 4 is different from the second side of the printed circuit board 4.
  • the first side of the printed circuit board 4 faces the second side of the printed circuit board 4.
  • FIG. In one embodiment, the first side of the circuit board 4 is parallel to the second side of the circuit board 4.
  • the first side of the circuit board 4 abuts the pillars.
  • the second side of the circuit board 4 borders on the rivet.
  • the bars preferably run essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the bars run perpendicular to the first and to the second side of the circuit board holder 2.
  • the bars preferably run essentially perpendicular to the first and to the second side of the printed circuit board 4. Ideally, the bars run perpendicular to the first and to the second side of the printed circuit board 4.
  • one adhesive point secures the printed circuit board 4 to the respective strut.
  • the printed circuit board 4 has a first and a second side.
  • the first side of the printed circuit board 4 is different from the second side of the printed circuit board 4.
  • the first side of the printed circuit board 4 faces the second side of the printed circuit board 4.
  • FIG. In one embodiment, the first side of the circuit board 4 is parallel to the second side of the circuit board 4.
  • the first side of the circuit board 4 is adjacent to the pillar and to the splice.
  • the rail preferably runs essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the rail runs perpendicular to the first and to the second side of the circuit board holder 2.
  • the spar preferably runs essentially perpendicularly to the first and to the second side of the circuit board 4. Ideally, the spar runs perpendicularly to the first and to the second side of the circuit board 4.
  • the printed circuit board 4 again has a first and a second side.
  • the first side of the printed circuit board 4 is different from the second side of the printed circuit board 4.
  • the first side of the printed circuit board 4 faces the second side of the printed circuit board 4.
  • FIG. In one embodiment, the first side of the printed circuit board 4 is parallel to the second side of the printed circuit board 4.
  • the first side of the printed circuit board 4 borders the pillars and the splices.
  • the bars preferably run essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the bars run perpendicular to the first and to the second side of the circuit board holder 2.
  • the bars preferably run essentially perpendicular to the first and to the second side of the printed circuit board 4. Ideally, the bars run perpendicular to the first and to the second side of the printed circuit board 4.
  • the printed circuit board holder 2 is essentially immovable relative to the printed circuit board 4 .
  • the circuit board holder 2 is preferably immovable relative to the circuit board 4 .
  • the housing wall 1 is essentially immovable relative to the printed circuit board 4 .
  • the housing wall 1 is preferably immovable relative to the printed circuit board 4 .
  • the first threaded bolt 6 is essentially immovable relative to the printed circuit board 4 .
  • the first threaded bolt 6 is preferably immovable relative to the printed circuit board 4 .
  • a rigid composite enables the components to be positioned precisely, in particular the electrical contacts between the components to be positioned precisely.
  • the bar or bars have a length dimension.
  • the spar has a length dimension.
  • a first end of the spar is located at the intersection between the second side of the circuit board holder 2 and the spar.
  • a second end of the bar is directed towards the first side of the printed circuit board 4 .
  • the first end of the spar is different from the second end of the spar.
  • the length dimension of the spar between the first and second ends of the spar is preferably greater than three millimeters.
  • the longitudinal dimension of the spar between the first and the second end of the spar can also be greater than six millimeters.
  • the longitudinal dimension of the spar between the first and the second end of the spar can also be longer than twelve millimeters.
  • the spars each have a length dimension.
  • a first end of each spar is located at the intersection between the second side of the circuit board holder 2 and the respective spar.
  • a second end of each spar is directed towards the first side of the printed circuit board 4 .
  • the first end of the spar is different from the second end of the spar.
  • each spar between the first and the second end of the respective spar is preferably greater than three millimeters.
  • the length dimension of each spar between the first and second ends of the respective spar can also be larger than six millimeters.
  • the length dimension of each spar between the first and the second end of the respective spar can also be longer than twelve millimeters.
  • all of the spars are of equal length. That is, all of the spars have substantially the same length dimension between their respective first and second ends. In particular, all spars can have the same length dimension between their respective first and second ends. Consequently, adjustments to different length dimensions of the spars are no longer necessary.
  • the circuit board holder 2 and the spar or spars are preferably made in one piece. This means that no spar and no spars have to be subsequently attached to the circuit board holder 2 .
  • the circuit board holder 2 and the spar or spars are manufactured in one piece in an injection molding process.
  • the circuit board holder 2 and the spar or spars are manufactured in one piece using an additive manufacturing process such as three-dimensional printing.
  • the printed circuit board holder 2 and the spar or spars can be produced in one piece by selective laser sintering.
  • a sufficient distance between the printed circuit board 4 and the printed circuit board holder 2 and the housing wall 1 additionally protects the components on the printed circuit board 4 from external influences.
  • the circuit board 4 can be made of, for example, a plastic such as laminated epoxy resin and/or laminated polyimides and/or laminated polytetrafluoroethylene.
  • the printed circuit board 4 can also be made from a combination of the aforementioned polymers. The above lists of materials for the printed circuit board 4 are not exhaustive.
  • the circuit board 4 is preferably about 1.6 millimeters thick. The thickness of the circuit board 4 refers to a shortest distance between the first and the second side of the circuit board 4.
  • a printed circuit board 4 according to standard dimensions reduces adaptations of the solution to non-standard components. This reduces the complexity of the solution.
  • FIG 2 shows a second threaded bolt 7.
  • the second threaded bolt 7 is optional.
  • the second threaded bolt 7 is different from the first threaded bolt 6.
  • the second threaded bolt 7 preferably comprises a second hollow cylinder with a second external thread, for example with a second metric external thread.
  • the second threaded bolt 7 is ideally a second hollow cylinder with a second external thread, for example with a second metric external thread.
  • the first threaded bolt 6 and the second threaded bolt 7 preferably have the same types of external threads. Ideally, the first threaded bolt 6 and the second threaded bolt 7 each have a metric external thread. Identical types of external threads enable a high proportion of identical parts. Consequently, the complexity of the solution is reduced.
  • the housing wall 1 has a second opening.
  • the second opening in the housing wall 1 preferably has a circular cross-section.
  • the second opening in the housing wall 1 can also have a square, rectangular or hexagonal cross-section. The above list of cross sections of the second opening in the housing wall 1 does not claim to be complete.
  • the second opening in the housing wall 1 is a bore. In a further embodiment, the second opening in the housing wall 1 is punched.
  • the second opening in the housing wall 1 can be made as a recess during manufacture using an additive manufacturing method.
  • a second threaded bolt 7 is guided through the second opening in the housing wall 1 .
  • the second threaded bolt 7 preferably comprises a second hollow cylinder with a second external thread, for example with a second metric external thread.
  • the second threaded bolt 7 is ideally a second hollow cylinder with a second external thread, for example with a second metric external thread.
  • the second hollow cylinder of the second threaded bolt 7 is made of a material which is compatible with the material of the housing wall 1.
  • the second hollow cylinder of the second threaded bolt 7 can be made of a metal such as aluminum and/or steel and/or ferritic steel and/or austenitic be made of steel and/or brass.
  • the second hollow cylinder of the second threaded bolt 7 can also consist of a be made of plastic. The above lists of materials for the second hollow cylinder of the second threaded bolt 7 are not exhaustive.
  • a fifth nut is attached to the second threaded bolt 7 on the first side of the housing wall 1 in such a way that the fifth nut is adjacent to the first side of the housing wall 1 .
  • the fifth nut preferably comprises a fifth retaining nut and/or a fifth flat nut.
  • the fifth nut is ideally a fifth retaining nut and/or a fifth flat nut.
  • the fifth nut is, for example, a fifth nut with a metric thread on an inside of the fifth nut.
  • the fifth nut is made of a material that is compatible with the material of the second threaded bolt 7.
  • the fifth nut is also made of a material that is compatible with the material of the housing wall 1.
  • the fifth nut can be made of a metal such as aluminum, for example and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the fifth nut can also be made of a plastic. The foregoing lists of fifth nut materials are not exhaustive.
  • a sixth nut is attached to the second threaded bolt 7 on the second side of the housing wall 1 in such a way that the sixth nut is adjacent to the second side of the housing wall 1 .
  • the sixth nut preferably comprises a sixth retaining nut and/or a sixth flat nut.
  • the sixth nut is ideally a sixth retaining nut and/or a sixth flat nut.
  • the sixth nut is, for example, a sixth nut with a metric thread on an inside of the sixth nut.
  • the sixth nut is made of a material that is compatible with the material of the second threaded bolt 7.
  • the sixth nut is also made of a material that is compatible with the material of the housing wall 1.
  • the sixth nut can be made of a metal such as aluminum, for example and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the sixth nut can also be made of a plastic. The foregoing lists of sixth nut materials are not exhaustive.
  • the sixth nut is arranged opposite to the fifth nut. Between the sixth nut and the fifth nut is the housing wall 1 arranged. The sixth nut and the fifth nut fasten the second threaded bolt 7 to the housing wall 1. The fastening is such that the second threaded bolt 7 is essentially immovable relative to the housing wall 1. The sixth nut and the fifth nut preferably fasten the second threaded bolt 7 to the housing wall 1 in such a way that the second threaded bolt 7 cannot move relative to the housing wall 1 .
  • a rigid composite enables the components to be positioned precisely, in particular the electrical contacts between the components to be positioned precisely.
  • the sixth retaining nut is positioned opposite the fifth retaining nut.
  • the housing wall 1 is arranged between the sixth retaining nut and the fifth retaining nut.
  • the sixth retaining nut and the fifth retaining nut fasten the second threaded bolt 7 to the housing wall 1.
  • the fastening is such that the second threaded bolt 7 is essentially immovable relative to the housing wall 1.
  • the sixth retaining nut and the fifth retaining nut preferably fasten the second threaded bolt 7 to the housing wall 1 in such a way that the second threaded bolt 7 cannot move relative to the housing wall 1 .
  • the sixth flat nut is arranged opposite the fifth flat nut.
  • the housing wall 1 is arranged between the sixth flat nut and the fifth flat nut.
  • the sixth flat nut and the fifth flat nut fasten the second threaded bolt 7 to the housing wall 1.
  • the fastening is such that the second threaded bolt 7 is essentially immovable relative to the housing wall 1.
  • the sixth flat nut and the fifth flat nut preferably fasten the second threaded bolt 7 to the housing wall 1 in such a way that the second threaded bolt 7 cannot move relative to the housing wall 1 .
  • the second threaded bolt 7 is screwed into the housing wall 1 .
  • the second opening in the housing wall 1 has an internal thread which matches the second external thread of the second threaded bolt 7 .
  • the internal thread of the second opening in the housing wall 1 and the second external thread of the second threaded bolt 7 can both be metric.
  • the fifth nut and the sixth nut can also be omitted.
  • the fifth retaining nut or the sixth retaining nut can also be omitted.
  • the fifth retaining nut and the sixth retaining nut can also be omitted.
  • the fifth flat nut or the sixth Flat nut omitted.
  • the fifth flat nut and the sixth flat nut can also be omitted.
  • the second threaded bolt 7 preferably runs essentially perpendicular to the first and to the second side of the housing wall 1. Ideally, the second threaded bolt 7 runs perpendicular to the first and to the second side of the housing wall 1.
  • the circuit board holder 2 has a second opening.
  • the second opening in the circuit board holder 2 preferably has a circular cross-section.
  • the second opening in the circuit board holder 2 can also have a square, rectangular or hexagonal cross-section. The above list of cross sections of the second opening in the circuit board holder 2 does not claim to be complete.
  • the second opening in the circuit board holder 2 is a bore. In a further embodiment, the second opening in the circuit board holder 2 is punched. Further technical options for producing the first opening in the circuit board holder 2 are known in the relevant field. For example, the second opening in the circuit board holder 2 can be made as a recess during production using an additive manufacturing process.
  • the first and second openings in the board holder 2 may be in the form of a single opening in the board holder 2 . This means that the first and the second opening in the circuit board holder 2 are not different from each other.
  • the second threaded bolt 7 is guided through the second opening in the circuit board holder 2 .
  • the second threaded bolt 7 preferably comprises a second hollow cylinder with a second external thread, for example with a second metric external thread.
  • the second threaded bolt 7 is ideally a second hollow cylinder with a second external thread, for example with a second metric external thread.
  • the second threaded bolt 7 preferably runs essentially perpendicular to the first and to the second side of the circuit board holder 2. Ideally, the second threaded bolt 7 runs perpendicular to the first and to the second side of the circuit board holder 2.
  • a second spacer is inserted between the circuit board holder 2 and the housing wall 1 .
  • a second spacer is preferably inserted between the circuit board holder 2 and the second side of the housing wall 1 .
  • a section of the second threaded bolt 7 runs inside the second spacer.
  • the second spacer is made of a material compatible with the material of the second stud 7.
  • the second spacer is also made of a material compatible with the material of the circuit board holder 2.
  • the second spacer is also made of a material , which is compatible with the material of the sixth screw nut, in particular the sixth retaining nut and/or the sixth flat nut.
  • the second spacer can be made, for example, from a metal such as aluminum and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the second spacer can also be made of a plastic. The foregoing lists of second spacer materials are not exhaustive.
  • the second spacer has a length dimension which is parallel to the second threaded bolt 7 .
  • the length dimension of the second spacer is parallel to an axis of the second stud 7, the second stud 7 being substantially cylindrically symmetrical about that axis.
  • the second threaded bolt 7 is cylindrically symmetrical to that axis of the second threaded bolt 7, except for its second external thread.
  • the length dimension of the second spacer can be more than one millimeter, or more than two millimeters, or more than five millimeters, for example.
  • a sufficient distance between the circuit board holder 2 and the housing wall 1 contributes to the electrical and/or thermal insulation of both components.
  • a sufficient distance between the circuit board holder 2 and the second side of the housing wall 1 contributes to the electrical and/or thermal insulation of both components.
  • the second spacer has a first side.
  • the first side of the second spacer is preferably adjacent to the sixth nut.
  • the first side of the second spacer preferably abuts the sixth retaining nut.
  • the first side of the second spacer abuts the sixth flat nut.
  • the second spacer has a second side.
  • the second side of the second spacer is different than the first side of the second spacer.
  • the first and second sides of the second spacer are parallel to each other.
  • the length dimension of the second spacer corresponds to a shortest distance between the first and second sides of the second spacer.
  • the length dimension is ideally a shortest distance between the first and second sides of the second spacer.
  • the length dimension of the second spacer is substantially equal to the length dimension of the first spacer.
  • the length dimension of the second spacer is equal to the length dimension of the first spacer. Equal length dimensions of the first and second spacers allow a high proportion of the same parts. Consequently, the complexity of the solution is reduced.
  • the second side of the second spacer abuts the circuit board holder 2.
  • the second side of the second spacer borders the first side of the circuit board holder 2.
  • the second side of the second spacer abuts the first side of the circuit board holder 2.
  • a seventh nut is attached to the second threaded bolt 7 on the second side of the circuit board holder 2 in such a way that the seventh nut is adjacent to the second side of the circuit board holder 2 .
  • the seventh nut preferably comprises a seventh retaining nut and/or a seventh flat nut.
  • the seventh nut is ideally a seventh retaining nut and/or a seventh flat nut.
  • the seventh nut is, for example, a seventh nut with a metric thread on an inside of the seventh nut.
  • the seventh nut is made of a material that is compatible with the material of the second stud 7.
  • the seventh nut is also made of a material that is compatible with the material of the circuit board holder 2.
  • the seventh nut can be made of a metal such as aluminum, for example and/or steel and/or ferritic steel and/or austenitic steel and/or brass.
  • the seventh nut can also be made of a plastic. The above lists of seventh nut materials are not exhaustive.
  • the seventh nut is arranged opposite to the second spacer.
  • the circuit board holder 2 is arranged between the seventh nut and the second spacer.
  • the seventh nut and the second spacer fasten the second threaded bolt 7 to the printed circuit board holder 2.
  • the fastening is such that the second threaded bolt 7 is essentially immovable relative to the printed circuit board holder 2.
  • the seventh nut and the second spacer preferably fasten the second threaded bolt 7 to the circuit board holder 2 in such a way that the second threaded bolt 7 is immovable relative to the circuit board holder 2 .
  • the seventh retaining nut and/or seventh flat nut is arranged opposite the second spacer.
  • the circuit board holder 2 is arranged between the seventh retaining nut and/or the seventh flat nut and the second spacer.
  • the seventh retaining nut and/or seventh flat nut and the second spacer fasten the second threaded bolt 7 to the printed circuit board holder 2.
  • the fastening is such that the second threaded bolt 7 is essentially immovable relative to the printed circuit board holder 2.
  • the attachment is preferably such that the second threaded bolt 7 cannot move relative to the circuit board holder 2 .
  • the second threaded bolt 7 is screwed into the circuit board holder 2 .
  • the second opening in the circuit board holder 2 has an internal thread which matches the second external thread of the second threaded bolt 7 .
  • the internal thread of the second opening in the circuit board holder 2 and the second external thread of the second threaded bolt 7 can both be metric.
  • the seventh nut and the second spacer can also be omitted.
  • the seventh retaining nut or the second spacer is omitted.
  • the seventh retaining nut and the second spacer can also be omitted.
  • the seventh flat nut or the second spacer can also be omitted.
  • the seventh flat nut and the second spacer can also be omitted.
  • an eighth nut may be attached so as to be adjacent to the first side of the board holder 2 .
  • the circuit board holder 2 lies between the seventh nut on the second side of the circuit board holder 2 and the eighth nut on the first side of the Circuit board holder 2.
  • the seventh nut and the eighth nut fasten the second threaded bolt 7 to the circuit board holder 2.
  • the fastening is such that the second threaded bolt 7 relative to the circuit board holder 2 is essentially immovable.
  • the seventh nut and the eighth nut preferably fasten the second threaded bolt 7 to the circuit board holder 2 in such a way that the second threaded bolt 7 is immovable relative to the circuit board holder 2 .
  • a rigid composite enables the components to be positioned precisely, in particular the electrical contacts between the components to be positioned precisely.
  • the eighth nut may include an eighth retaining nut.
  • the eighth nut can be an eighth retaining nut.
  • the seventh retaining nut is positioned opposite the eighth retaining nut.
  • the circuit board holder 2 is arranged between the seventh retaining nut and the eighth retaining nut.
  • the seventh retaining nut and the eighth retaining nut fasten the second threaded bolt 7 to the printed circuit board holder 2.
  • the fastening is such that the second threaded bolt 7 is essentially immovable relative to the printed circuit board holder 2.
  • the attachment is preferably such that the second threaded bolt 7 cannot move relative to the circuit board holder 2 .
  • the eighth nut may include an eighth flat nut.
  • the eighth nut can be an eighth flat nut.
  • the seventh flat nut is arranged opposite the eighth flat nut.
  • Circuit board holder 2 is arranged between the seventh flat nut and the eighth flat nut.
  • the seventh flat nut and the eighth flat nut fasten the second threaded bolt 7 to the printed circuit board holder 2.
  • the fastening is such that the second threaded bolt 7 is essentially immovable relative to the printed circuit board holder 2.
  • the attachment is preferably such that the second threaded bolt 7 cannot move relative to the circuit board holder 2 .
  • FIG 2 shows one end of the first threaded bolt 6.
  • the end of the first threaded bolt 6 is directed towards the printed circuit board 4.
  • FIG. At the end of the first threaded bolt 6, at least one first conductor protrudes from the first hollow cylinder of the first threaded bolt 6.
  • a first multiplicity of conductors protrudes from the first hollow cylinder of the first threaded bolt 6.
  • the first multiplicity of conductors, which the first hollow cylinder of the first threaded bolt 6 can, for example, comprise two or five or ten conductors.
  • At least one first electrical conductor protrudes from the first hollow cylinder of the first threaded bolt 6.
  • a first plurality of electrical conductors for example a first plurality of electrical copper conductors, protrudes from the first hollow cylinder of the first threaded bolt 6.
  • at least one first optical conductor for example a first optical waveguide, can protrude from the first hollow cylinder of the first threaded bolt 6.
  • at least one first electrical conductor and at least one first optical conductor can protrude from the first hollow cylinder of the first threaded bolt 6 .
  • a first plug can be attached to the end of the first threaded bolt 6 .
  • the first plug is advantageously fitted inside the first hollow cylinder of the first threaded bolt 6 .
  • the first plug secures the at least one first conductor or plurality of conductors.
  • the first plug can attach the at least one first electrical conductor or the first plurality of electrical conductors.
  • the first plug can fix the at least one first electrical conductor and the at least one first optical conductor.
  • the attachment by the first plug is initially opposite the first threaded bolt 6.
  • the attachment is also opposite the circuit board 4.
  • the at least one first conductor is aligned through the first plug so that it can be attached directly to the circuit board 4 .
  • the at least one first conductor can be soldered directly onto the circuit board 4 .
  • the first plurality of conductors can be oriented such that the conductors of the first plurality of conductors can be directly attached to the circuit board 4 .
  • the conductors of the first multiplicity of conductors can be soldered directly onto the circuit board 4 .
  • the electrical conductors of the first multiplicity of conductors to be soldered directly onto the printed circuit board 4 .
  • a first male or female screw plug can be attached to the end of the first threaded bolt 6 .
  • the first male or female screw connector of the first threaded bolt 6 there is then a first matching counterpart on the printed circuit board 4 .
  • the first male or female screw connector enables the at least one first conductor or the first plurality of conductors to be attached to the printed circuit board 4.
  • the first male or female screw connector is screwed to its first mating counterpart.
  • the at least one first electrical conductor or the first plurality of electrical conductors based on the first Screw connector and the first counterpart are attached.
  • the at least one first copper conductor or the first plurality of copper conductors can also be fastened using the first screw connector and the first counterpart. Consequently, the first electrical conductor or the first electrical conductors are connected directly to the printed circuit board 4 using the first screw connector and the first counterpart.
  • the alignment and direct connection ideally eliminates all cable-to-board connections between the first plug and the circuit board 4. This makes the arrangement more robust against mechanical influences and less complex.
  • At least a first optical conductor is oriented through the first plug so that it can be connected directly to the printed circuit board 4. Furthermore, a first plurality of optical conductors may be aligned through the first plug. The orientation is such that the optical fibers of the first plurality of optical fibers can be directly connected to the circuit board 4 .
  • the at least one first optical conductor can be connected directly to the printed circuit board 4 using the first male or female screw connector. Furthermore, a first plurality of optical conductors can be connected directly to the circuit board 4 using the first male or female screw connector.
  • the first male or female screw connector may include a first temperature sensor.
  • the first temperature sensor can be a first temperature-dependent electrical resistance, for example.
  • the printed circuit board 4 makes electrical contact with the first temperature sensor by screwing the first male or female screw connector to its first mating counterpart.
  • the first temperature sensor thus enables a temperature measurement in or on the first male or female screw connector. In this way, an overheating screw connector or an overheating electrical connection can be detected.
  • FIG 2 shows one end of the second threaded bolt 7.
  • the end of the second threaded bolt 7 is directed towards the printed circuit board 4.
  • FIG. At the end of the second threaded bolt 7, at least one second conductor protrudes from the second hollow cylinder of the second threaded bolt 7.
  • a second plurality of conductors protrudes from the second hollow cylinder of the second threaded bolt 7.
  • the second plurality of conductors, which protrudes from the second hollow cylinder of the second threaded bolt 7 can, for example, comprise two or five or ten conductors.
  • At least one second electrical conductor protrudes from the second hollow cylinder of the second threaded bolt 7.
  • a second plurality of electrical conductors for example a second plurality of electrical copper conductors, protrudes from the second hollow cylinder of the second threaded bolt 7.
  • at least one second optical conductor for example a second optical waveguide, can protrude from the second hollow cylinder of the second threaded bolt 7.
  • at least one second electrical conductor and at least one second optical conductor can protrude from the second hollow cylinder of the second threaded bolt 7 .
  • a second plug can be attached to the end of the second threaded bolt 7 .
  • the second plug is advantageously fitted inside the second hollow cylinder of the second threaded bolt 7 .
  • the second plug secures the at least one second conductor or plurality of conductors.
  • the second plug can secure the at least one second electrical conductor or the second plurality of electrical conductors.
  • the second plug can fix the at least one second electrical conductor and the at least one second optical conductor.
  • the attachment by the second plug is initially opposite the second threaded bolt 7.
  • the attachment is also opposite the circuit board 4.
  • the at least one second conductor is aligned through the second plug so that it can be attached directly to the circuit board 4 .
  • the at least one second conductor can be soldered directly onto the circuit board 4 .
  • the second plurality of conductors may be oriented such that the conductors of the second plurality of conductors can be attached directly to the printed circuit board 4.
  • the conductors of the second multiplicity of conductors can be soldered directly onto the printed circuit board 4 .
  • the electrical conductors of the second multiplicity of conductors to be soldered directly onto the printed circuit board 4 .
  • a second male or female screw plug can be attached to the end of the second threaded bolt 7 .
  • the second male or female screw connector of the second threaded bolt 7 there is then a second matching counterpart on the printed circuit board 4 .
  • the second male or female screw connector allows the Attachment of the at least one second conductor or the second plurality of conductors to the printed circuit board 4.
  • the second male or female screw connector is screwed to its second matching counterpart.
  • the at least one second electrical conductor or the second plurality of electrical conductors can be attached using the second screw plug and the second counterpart.
  • the at least one second copper conductor or the second plurality of copper conductors can also be fastened using the second screw connector and the second counterpart. Consequently, the second electrical conductor or the second electrical conductors are connected directly to the printed circuit board 4 using the second screw connector and the second counterpart.
  • the alignment and direct connection ideally eliminates all cable-to-board connections between the second plug and the circuit board 4. This makes the arrangement more robust against mechanical influences and less complex.
  • At least one second optical conductor is oriented through the second plug so that it can be connected directly to the printed circuit board 4. Furthermore, a second plurality of optical conductors may be aligned through the second plug. The orientation is such that the optical fibers of the second plurality of optical fibers can be directly connected to the circuit board 4 .
  • the at least one second optical conductor can be connected directly to the printed circuit board 4 using the second male or female screw connector. Furthermore, a second plurality of optical conductors can be connected directly to the circuit board 4 using the second male or female screw connector.
  • the second screw connector differs from the first screw connector in that the second screw connector enables tolerance compensation.
  • the second screw plug can include an elastic part for the purpose of tolerance compensation.
  • Lengths, thicknesses, diameters and areas of this disclosure are in terms of three hundred Kelvin and one thousand thirteen hectopascals unless otherwise noted.
  • the first tubular fastener (6) has an internal space.
  • the at least one first conductor runs inside the first tubular fastening element (6).
  • the interior of the first tubular fastener (6) may be hollow. This means that the inner space of the first tubular fastener (6) is a cavity.
  • the first tubular fastener (6) is mechanically interlocked with the bracket (2) such that the bracket (2) is substantially immovable with respect to the first tubular fastener (6).
  • the circuit board (4) comprises an electrical circuit board (4).
  • the circuit board (4) is preferably an electrical circuit board (4).
  • the circuit board (4) comprises a printed electrical circuit board (4).
  • the circuit board (4) is preferably a printed electrical circuit board (4).
  • the circuit board (4) comprises a printable electrical circuit board (4).
  • the circuit board (4) is preferably a printable electrical circuit board (4).
  • the first tubular fastener (6) comprises a first and substantially cylindrical fastener (6). According to a particular embodiment, the first tubular fastener (6) comprises a first and cylindrical fastener (6).
  • the first connection is preferably a first connection for the fixed connection of the at least one first conductor to the printed circuit board (4).
  • the first connection can also be a first connection for the permanent connection of the at least one first conductor to the printed circuit board (4).
  • the first connection includes a first rigid connection of the at least one first conductor to the printed circuit board (4). In a related embodiment, the first connection includes a first fixed connection of the at least one first conductor to the printed circuit board (4). In another related embodiment, the first connection comprises a first permanent connection of the at least one first conductor to the printed circuit board (4).
  • the at least one protrusion includes a first end and a second end.
  • the second end of the at least one protrusion is different from the first end of the at least one protrusion.
  • the first end of the at least one projection connects the at least one projection to the mount (2).
  • the second end of the at least one projection is for mechanical attachment of the printed circuit board (4) to the at least one projection and to the holder (2).
  • the first tubular fastener (6) has an end directed towards the printed circuit board (4).
  • the at least one projection and the first tubular fastener (6) each face away from the bracket (2).
  • the at least one projection comprises a first end and a second end, the second end of the at least one projection being different from the first end of the at least one projection, the first end of the at least one projection connecting the at least one projection to the bracket (2) connects, wherein the second end of the at least one projection is for mechanical attachment of the printed circuit board (4) to the at least one projection and to the bracket (2), wherein the second end of the at least one projection defines a first direction, the second end of the at least one projection and the end of the first tubular fastener (6) are directed away from the bracket (2) in the first direction.
  • the first tubular fastener (6) is mechanically fixed to the support (2) in such a way that the support (2) is immovable with respect to the first tubular fastener (6).
  • the first tubular fastener (6) is screwed tightly to the bracket (2) such that the bracket (2) is substantially immovable relative to the first tubular fastener (6).
  • the first tubular fastener (6) is screwed tightly to the bracket (2) such that the bracket (2) is immovable with respect to the first tubular fastener (6).
  • the first tubular fastening element (6) is firmly glued to the bracket (2) in such a way that the bracket (2) is essentially immovable with respect to the first tubular fastening element (6).
  • the first tubular fastener (6) is firmly glued to the bracket (2) such that the bracket (2) is immovable with respect to the first tubular fastener (6).
  • first tubular fastener (6) is rigidly connected to the bracket (2) by a shrink fit such that the bracket (2) is substantially immovable with respect to the first tubular fastener (6).
  • first tubular fastener (6) is rigidly connected to the bracket (2) by a shrink fit such that the bracket (2) is immovable with respect to the first tubular fastener (6).
  • the present disclosure further teaches any of the foregoing arrangements, wherein the first terminal comprises a first electrical terminal and wherein the at least one first conductor comprises at least one first electrical conductor.
  • the first connection is preferably a first electrical connection.
  • the at least one first conductor is preferably at least one first electrical conductor.
  • the present disclosure also teaches any of the foregoing arrangements, wherein the first port includes a first port for an optical fiber, and wherein the at least one first conductor includes at least one first optical fiber.
  • the first connection is preferably a first connection for an optical waveguide.
  • the at least one first conductor is preferably at least one first optical waveguide.
  • Fiber optics offer advantages in environments with a risk of explosion, for example. In such environments, electrical connections should be kept to a minimum.
  • the present disclosure also teaches any of the foregoing arrangements, wherein the first tubular fastener (6) is perpendicular to the bracket (2).
  • the present disclosure also teaches one of the above arrangements, wherein the holder (2) and the at least one projection for mechanically fastening the printed circuit board (4) are made in one piece.
  • the holder (2) and the at least one projection for the mechanical attachment of the circuit board (4) are in one piece.
  • the holder (2) and the at least one projection for mechanically fastening the printed circuit board (4) can be made in one piece, for example using an injection molding process or using an additive process. Consequently, the complexity of the arrangement is reduced. Furthermore, the probability of a failure is reduced because fewer parts have to be connected and fewer connection points can break as a result of mechanical stress.
  • the first tubular fastening element (6) is mechanically fixed to the housing wall (1) in such a way that the housing wall (1) is immovable with respect to the first tubular fastening element (6).
  • the first tubular fastener (6) is mechanically positively connected to the housing wall (1) such that the housing wall (1) is substantially immovable with respect to the first tubular fastener (6).
  • the second side of the holder (2) and the first side of the holder (2) form opposite sides of the holder (2).
  • the present disclosure also teaches one of the aforementioned arrangements with a housing wall (1), the holder (2) being arranged between the housing wall (1) and the first connection.
  • the holder (2) is arranged between the housing wall (1) and the printed circuit board (4).
  • the present disclosure also teaches one of the above arrangements with a housing wall (1), the first tubular fastening element (6) being arranged perpendicularly to the housing wall (1).
  • the present disclosure also teaches one of the above arrangements with a housing wall (1), wherein the first tubular fastener (6) is the only mechanical connection between the bracket (2) and the housing wall (1).
  • the present disclosure further teaches any of the foregoing assemblies comprising a housing wall (1), wherein the first tubular fastener (6) is the only tubular mechanical connection between the bracket (2) and the housing wall (1).
  • the present disclosure further teaches any of the foregoing arrangements comprising a housing wall (1), wherein the first tubular fastener (6) is essentially the only mechanical connection between the bracket (2) and the housing wall (1).
  • the present disclosure also teaches one of the aforementioned arrangements with a housing wall (1), wherein the first connection comprises a first male or female screw connector, so that the first male or female screw connector enables the at least one first conductor to be rigidly connected to the printed circuit board (4).
  • the first connection comprises a first male or female screw plug, so that the first male or female screw plug enables a fixed connection of the at least one first conductor to the printed circuit board (4).
  • the first connection comprises a first male or female screw plug, so that the first male or female screw plug enables the at least one first conductor to be firmly connected to the printed circuit board (4).
  • the first connection comprises a first male or female screw connector, so that the first male or female screw connector together with a first female or male screw connector on the printed circuit board (4) enables the at least one first conductor to be rigidly connected to the printed circuit board (4).
  • the first connection comprises a first male or female screw plug, so that the first male or female screw plug, together with a first female or male screw plug on the printed circuit board (4), forms a fixed connection of the at least one first conductor to the printed circuit board (4). allows.
  • the first connection comprises a first male or female screw connector, so that the first male or female screw connector together with a first female or male screw connector on the printed circuit board (4) forms a permanent connection of the at least one first conductor to the printed circuit board (4 ) enabled.
  • the second tubular fastener (7) is different from the first tubular fastener (6).
  • the at least one second conductor is different from the at least one first conductor.
  • the at least one second opening in the holder (2) is different from the at least one first opening in the holder (2).
  • the second port is different from the first port.
  • the second tubular fastener (7) comprises a second and substantially cylindrical fastener (7). According to a particular embodiment, the second tubular fastener (7) comprises a second and cylindrical fastener (7).
  • the second connection is preferably a second connection for the fixed connection of the at least one second conductor to the printed circuit board (4).
  • the second connection can also be a second connection for the permanent connection of the at least one second conductor to the printed circuit board (4).
  • the second connection includes a second rigid connection of the at least one second conductor to the printed circuit board (4). In a related embodiment, the second connection includes a second fixed connection of the at least one second conductor to the printed circuit board (4). In another related embodiment, the second connection comprises a second permanent connection of the at least one second conductor to the printed circuit board (4).
  • the second tubular fastener (7) has an end directed towards the circuit board (4).
  • the at least one projection and the second tubular fastener (7) each face away from the bracket (2).
  • the at least one projection includes a first end and a second end, wherein the second end of the at least one projection is different from the first end of the at least one projection, wherein the first end of the at least one projection connects the at least one projection to the bracket (2), the second end of the at least one projection for mechanically fastening the printed circuit board (4) on the at least one projection and on the bracket (2), the second end of the at least one projection defining a second direction, the second end of the at least one projection and the end of the second tubular fastener (7) being in the second direction are directed away from the holder (2).
  • the first direction preferably corresponds to the second direction.
  • the first direction is ideally equal to the second direction.
  • the second tubular fastener (7) is mechanically fixed to the support (2) in such a way that the support (2) is immovable with respect to the second tubular fastener (7).
  • the second tubular fastener (7) is screwed tightly to the bracket (2) such that the bracket (2) is substantially immovable with respect to the second tubular fastener (7).
  • the second tubular fastener (7) is screwed tightly to the bracket (2) in such a way that the bracket (2) is immovable with respect to the second tubular fastener (7).
  • the second tubular fastening element (7) is so firmly glued to the bracket (2) that the bracket (2) opposite the second tubular Fastening element (7) is essentially immovable.
  • the second tubular fastener (7) is firmly glued to the bracket (2) in such a way that the bracket (2) is immovable with respect to the second tubular fastener (7).
  • the second tubular fastener (7) is rigidly connected to the bracket (2) by a shrink fit such that the bracket (2) is substantially immovable with respect to the second tubular fastener (7).
  • the second tubular fastener (7) is rigidly connected to the bracket (2) by a shrink fit such that the bracket (2) is immovable with respect to the second tubular fastener (7).
  • the present disclosure also teaches any of the above arrangements comprising a second terminal, the second terminal comprising a second electrical terminal and the at least one second conductor comprising at least one second electrical conductor.
  • the second connection is preferably a second electrical connection.
  • the at least one second conductor is preferably at least one second electrical conductor.
  • the present disclosure further teaches any of the above arrangements including a second port, wherein the second port includes a second port for an optical fiber, and wherein the at least one second conductor includes at least one second optical fiber.
  • the second connection is preferably a second connection for an optical waveguide.
  • the at least one second conductor is preferably at least one second optical waveguide.
  • Fiber optics offer advantages in environments with a risk of explosion, for example. In such environments, electrical connections should be kept to a minimum.
  • the present disclosure further teaches any of the above arrangements comprising a second tubular fastener (7), wherein the second tubular fastener (7) is perpendicular to the bracket (2).
  • the present disclosure also teaches any of the foregoing arrangements including a second tubular fastener (7), the second tubular fastener (7) being disposed parallel to the first tubular fastener (6).
  • the present disclosure also teaches one of the above arrangements with a second tubular fastening element (7), the second connection comprising a second male or female screw connector, the second male or female screw connector comprising an elastic element, so that the elastic element and the second male or female screw connector enable the at least one second conductor to be rigidly connected to the printed circuit board (4). .
  • the second connection comprises a second male or female screw connector, the second male or female screw connector comprising an elastic element, so that the elastic element and the second male or female screw connector ensure the fixed connection of the at least one second conductor to the printed circuit board (4th ) make possible.
  • the second connection comprises a second male or female screw connector, wherein the second male or female screw connector comprises an elastic element, so that the elastic element and the second male or female screw connector ensure the fixed connection of the at least one second conductor to the circuit board ( 4) enable.
  • the second port comprises a second male or female screw connector, the second male or female screw connector comprising a resilient member such that the resilient member and the second male or female screw connector together with a second female or male screw connector on the printed circuit board (4th ) allow the rigid connection of the at least one second conductor to the printed circuit board (4).
  • the second terminal comprises a second male or female screw connector, the second male or female screw connector comprising an elastic element, so that the elastic element and the second male or female screw connector together with a second female or male screw connector on the printed circuit board ( 4) enable the fixed connection of the at least one second conductor to the printed circuit board (4).
  • the second port includes a second male or female screw connector, wherein the second male or female screw connector includes an elastic member such that the elastic member and the second male or female screw connector together with a second female or male screw connector on the printed circuit board (4) enable the fixed connection of the at least one second conductor to the printed circuit board (4).
  • the elastic element of the second male or female screw connector allows lateral displacement of contacts. As a result, tolerances can be met more easily.
  • the present disclosure further teaches a device, in particular an electrical device, comprising one of the aforementioned arrangements.
  • the device in particular the electrical device, preferably comprises a housing wall (1), the holder (2) of one of the aforementioned arrangements being mechanically fastened to the housing wall (1).
  • the housing wall (1) includes an inside and the holder (2) is attached to the inside of the housing wall (1).
  • the device, in particular the electrical device has an interior and the inside of the housing wall (1) delimits the interior.

Landscapes

  • Engineering & Computer Science (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Mounting Of Printed Circuit Boards And The Like (AREA)
EP22158286.9A 2022-02-23 2022-02-23 Support pour une carte de circuit imprimé Pending EP4236640A1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
EP22158286.9A EP4236640A1 (fr) 2022-02-23 2022-02-23 Support pour une carte de circuit imprimé
US18/171,880 US20230269888A1 (en) 2022-02-23 2023-02-21 Mount for a Circuit Board
CN202310188916.3A CN116648021A (zh) 2022-02-23 2023-02-22 用于电路板的支架

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP22158286.9A EP4236640A1 (fr) 2022-02-23 2022-02-23 Support pour une carte de circuit imprimé

Publications (1)

Publication Number Publication Date
EP4236640A1 true EP4236640A1 (fr) 2023-08-30

Family

ID=80623866

Family Applications (1)

Application Number Title Priority Date Filing Date
EP22158286.9A Pending EP4236640A1 (fr) 2022-02-23 2022-02-23 Support pour une carte de circuit imprimé

Country Status (3)

Country Link
US (1) US20230269888A1 (fr)
EP (1) EP4236640A1 (fr)
CN (1) CN116648021A (fr)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3011243A1 (de) 1980-03-24 1981-10-01 Siemens AG, 1000 Berlin und 8000 München Verriegelungsvorrichtung fuer eine lagerachse
US6186800B1 (en) * 1999-01-13 2001-02-13 Micron Electronics, Inc. Circuit board grounding and support structure
DE10226761A1 (de) 2002-06-14 2004-01-08 Patent-Treuhand-Gesellschaft für elektrische Glühlampen mbH Bajonettsockel für Lampenhalterung
DE102009059013A1 (de) 2009-12-17 2011-06-22 Phoenix Contact GmbH & Co. KG, 32825 Vorrichtung zur Befestigung mindestens einer Leiterplatte an einem Aufnahmeelement
DE112016004757T5 (de) * 2015-12-10 2018-07-05 Hitachi Automotive Systems, Ltd. Elektronische steuervorrichtung
US20190159351A1 (en) * 2017-11-21 2019-05-23 Pegatron Corporation Circuit board module and electronic device

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3011243A1 (de) 1980-03-24 1981-10-01 Siemens AG, 1000 Berlin und 8000 München Verriegelungsvorrichtung fuer eine lagerachse
US6186800B1 (en) * 1999-01-13 2001-02-13 Micron Electronics, Inc. Circuit board grounding and support structure
DE10226761A1 (de) 2002-06-14 2004-01-08 Patent-Treuhand-Gesellschaft für elektrische Glühlampen mbH Bajonettsockel für Lampenhalterung
DE102009059013A1 (de) 2009-12-17 2011-06-22 Phoenix Contact GmbH & Co. KG, 32825 Vorrichtung zur Befestigung mindestens einer Leiterplatte an einem Aufnahmeelement
DE112016004757T5 (de) * 2015-12-10 2018-07-05 Hitachi Automotive Systems, Ltd. Elektronische steuervorrichtung
US20190159351A1 (en) * 2017-11-21 2019-05-23 Pegatron Corporation Circuit board module and electronic device

Also Published As

Publication number Publication date
US20230269888A1 (en) 2023-08-24
CN116648021A (zh) 2023-08-25

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